MEASUREMENT OF INTERHELICAL ELECTROSTATIC INTERACTIONS IN THE GCN4 LEUCINE-ZIPPER

The dimerization specificity of the bZIP transcription factors resides in the leucine zipper region. It is commonly assumed that electrostat ic interactions between oppositely charged amino acid residues on diff erent helices of the leucine zipper contribute favorably to dimerizati on specificity. Crystal structures of the GCN4 leucine zipper contain interhelical salt bridges between Glu(20) and Lys(15') and between Glu (22) and Lys(27'). C-13-nuclear magnetic resonance measurements of the glutamic acid pK(a) values at physiological ionic strength indicate t hat the salt bridge involving Glu(22) does not contribute to stability and that the salt bridge involving Glu(20) is unfavorable, relative t o the corresponding situation with a neutral (protonated) Glu residue, Moreover, the substitution of Glu(20) by glutamine is stabilizing. Th us, salt bridges will not necessarily contribute favorably to bZIP dim erization specificity and may indeed be unfavorable, relative to alter native neutral-charge interactions.